correction pulse

简明释义

校正脉冲

英英释义

例句

1.Engineers designed the circuit to generate a correction pulse when deviations occur.

工程师设计了该电路，使其在出现偏差时生成修正脉冲。

2.After detecting an error, the device sends a correction pulse to rectify the issue.

在检测到错误后，设备发送一个修正脉冲来纠正问题。

3.The correction pulse helps to synchronize the motors in the robotic arm.

这个修正脉冲有助于同步机器人手臂中的电动机。

4.In the feedback loop, a correction pulse is crucial for maintaining stability.

在反馈回路中，修正脉冲对于维持稳定性至关重要。

5.The system generates a correction pulse to adjust the timing of the signal.

系统生成一个修正脉冲来调整信号的时序。

作文

In the world of electronics and signal processing, the term correction pulse refers to a specific type of signal used to adjust or correct the output of a system. These pulses play a crucial role in various applications, including communication systems, control systems, and measurement instruments. Understanding the function and significance of correction pulse can greatly enhance our comprehension of how electronic devices operate and maintain accuracy.To begin with, let’s define what a correction pulse is. Essentially, it is a brief electrical signal that is generated to counteract errors or deviations in a system's performance. For instance, in a digital communication system, data may be transmitted over a noisy channel, leading to potential errors in the received signal. Here, a correction pulse can be introduced to adjust the output, ensuring that the received data closely matches the original transmission.The implementation of correction pulse is particularly evident in feedback control systems. In these systems, sensors continuously monitor the output and send feedback to a controller. If the output deviates from the desired setpoint, the controller generates a correction pulse to bring the output back on track. This process is vital in maintaining stability and precision in various applications, such as robotics, automation, and aerospace engineering.Moreover, correction pulse is also significant in the realm of signal processing. When dealing with analog signals, distortions can occur due to various factors such as interference or component imperfections. By applying a correction pulse, engineers can effectively mitigate these distortions, resulting in a clearer and more accurate signal. This correction process is essential in fields like audio engineering, where sound quality is paramount, and any deviation can lead to a subpar listening experience.In addition, the concept of correction pulse extends beyond just electronic signals; it can also be applied in various scientific measurements. For example, in experimental physics, precise measurements are crucial for validating theories and conducting experiments. If a measurement device shows an error due to calibration issues, a correction pulse can be utilized to recalibrate the instrument, ensuring that the results obtained are reliable and accurate.The significance of correction pulse also highlights the importance of feedback mechanisms in technology. Feedback loops allow systems to self-correct and adapt to changing conditions, which is a foundational principle in engineering. This adaptability is what makes modern technology so efficient and reliable, from everyday household appliances to complex industrial machinery.In conclusion, the term correction pulse encapsulates a vital concept in electronics and signal processing. It serves as a tool for correcting errors and maintaining the integrity of signals across various applications. By understanding the role of correction pulse, we gain insight into the sophisticated mechanisms that underpin modern technology. As we continue to innovate and develop new systems, the principles of correction and feedback will remain central to achieving accuracy and reliability in our electronic devices and processes.

在电子和信号处理的世界中，术语校正脉冲指的是一种用于调整或纠正系统输出的特定类型信号。这些脉冲在各种应用中发挥着至关重要的作用，包括通信系统、控制系统和测量仪器。理解校正脉冲的功能和意义可以大大增强我们对电子设备如何运作和保持准确性的理解。首先，让我们定义一下校正脉冲是什么。本质上，它是一个短暂的电信号，用于抵消系统性能中的错误或偏差。例如，在数字通信系统中，数据可能通过噪声信道传输，导致接收信号出现潜在错误。在这里，可以引入校正脉冲来调整输出，确保接收到的数据与原始传输尽可能接近。校正脉冲的实现尤其在反馈控制系统中显而易见。在这些系统中，传感器持续监控输出并将反馈发送给控制器。如果输出偏离所需的设定点，控制器会生成一个校正脉冲以将输出拉回正轨。这个过程对于在机器人技术、自动化和航空航天工程等各种应用中维持稳定性和精确性至关重要。此外，校正脉冲在信号处理领域也非常重要。在处理模拟信号时，由于干扰或组件缺陷等各种因素，可能会发生失真。通过应用校正脉冲，工程师可以有效减轻这些失真，从而产生更清晰、更准确的信号。这个校正过程在音频工程等领域至关重要，因为声音质量至关重要，任何偏差都可能导致听觉体验不佳。此外，校正脉冲的概念不仅限于电子信号；它也可以应用于各种科学测量中。例如，在实验物理学中，精确的测量对于验证理论和进行实验至关重要。如果测量设备由于校准问题而显示错误，则可以利用校正脉冲来重新校准仪器，确保获得的结果可靠且准确。校正脉冲的重要性还突出了反馈机制在技术中的重要性。反馈回路使系统能够自我修正并适应变化的条件，这是工程中的基本原则。这种适应性使现代技术变得高效可靠，从日常家用电器到复杂的工业机械。总之，术语校正脉冲概括了电子和信号处理中的一个重要概念。它作为纠正错误和维护各种应用中信号完整性的工具。通过理解校正脉冲的作用，我们深入了解支撑现代技术的复杂机制。随着我们继续创新和开发新系统，校正和反馈的原则将继续是实现电子设备和过程的准确性和可靠性的核心。